CN219236414U - Antibacterial degradable polyester fabric - Google Patents
Antibacterial degradable polyester fabric Download PDFInfo
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- CN219236414U CN219236414U CN202320075061.9U CN202320075061U CN219236414U CN 219236414 U CN219236414 U CN 219236414U CN 202320075061 U CN202320075061 U CN 202320075061U CN 219236414 U CN219236414 U CN 219236414U
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- antibacterial
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- bacteriostatic
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W90/00—Enabling technologies or technologies with a potential or indirect contribution to greenhouse gas [GHG] emissions mitigation
- Y02W90/10—Bio-packaging, e.g. packing containers made from renewable resources or bio-plastics
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Abstract
The utility model discloses antibacterial degradable polyester fabric, and relates to the technical field of fabrics. The key points of the technical scheme are as follows: including antibacterial layer and the ventilative layer of setting in antibacterial layer one side, offered a plurality of first bleeder vents on the antibacterial layer, offered a plurality of guiding gutter between the adjacent bleeder vent, fixedly connected with antibacterial spare on the interior diapire of guiding gutter, be formed with the ventilative chamber of the first bleeder vent of intercommunication between adjacent antibacterial spare and antibacterial layer and the ventilative layer. According to the utility model, through the arrangement of the bamboo fiber, the fiber is regenerated cellulose fiber, and the bamboo fiber has good antibacterial and antibacterial effects, has good deodorizing effect and can be naturally degraded, so that the pollution of the fabric to the environment is reduced, and the aim of protecting the environment is fulfilled.
Description
Technical Field
The utility model relates to the technical field of fabrics, in particular to antibacterial degradable polyester fabrics.
Background
The terylene is a fiber with good elasticity and high strength, the fabric is stiff and smooth and has the characteristic of good shape retention, the fiber has wide application and high consumption, and many riding clothes are made of the terylene.
Along with the improvement of living standard, the health of people is continuously enhanced, and more people choose to go outdoors to participate in various outdoor exercises.
At present, outdoor riding exercise is popular among people, but riding a bicycle is very heat consuming, water in the bicycle body is discharged out of the bicycle body through sweat, if a rider encounters strong sun when the sun is on the head, the rider is moist, the rider is sultry, the rider is low in air pressure and other weather, sweat is often discharged out of the bicycle body quickly, and a large amount of sweat is accumulated between the skin surface and the fabric, so that the fabric is moist and easy to produce bacteria breeding, the bicycle is unfavorable for the rider to better perform outdoor exercise, the health of the rider can be influenced even if the bicycle is worn for a long time, and therefore, the structure is arranged to solve the problem that the sweat moisture absorption on the surface of a human body cannot influence the health of the rider because of the conventional riding clothes.
There is therefore a need to propose a new solution to this problem.
Disclosure of Invention
Aiming at the defects in the prior art, the utility model aims to provide the antibacterial degradable polyester fabric, and the aim of improving the overall antibacterial effect of the fabric is fulfilled through structural arrangement.
The technical aim of the utility model is realized by the following technical scheme: including antibacterial layer and the ventilative layer of setting in antibacterial layer one side, a plurality of first bleeder vents have been seted up on the antibacterial layer, adjacent a plurality of guiding gutter have been seted up between the first bleeder vent, fixedly connected with antibacterial spare on the interior diapire of guiding gutter, adjacent be formed with the ventilative chamber of the first bleeder vent of intercommunication between antibacterial spare and antibacterial layer and the ventilative layer.
The utility model is further provided with: the antibacterial member is formed by warp and weft knitting of a plurality of antibacterial yarns, and the antibacterial yarns are formed by twisting a plurality of bamboo fibers and fibrilia.
The utility model is further provided with: the antibacterial layer is formed by warp and weft knitting of a plurality of composite yarns in a longitudinal stripe structure mode, warp structure points of the longitudinal stripe structure are floating, weft structure points of the longitudinal stripe structure are sinking, and the structure of the longitudinal stripe structure is sequentially as follows: floating, sinking, floating floating, sinking, floating sinking, floating, sinking and sinking sinking, sinking and floating.
The utility model is further provided with: the composite yarn comprises a first core wire and an outer wrapping layer positioned on the outer ring of the first core wire, wherein the first core wire is formed by twisting a plurality of polyester fibers, and the outer wrapping layer is formed by mutually and spirally interweaving two bamboo fibers on the outer side of the first core wire.
The utility model is further provided with: the ventilation layer is provided with a second ventilation hole connected with the ventilation cavity, and the central axis of the second ventilation hole is staggered with the central axis of the first ventilation hole.
The utility model is further provided with: the breathable layer is formed by warp-weft knitting of breathable yarns, and the breathable yarns comprise a core wire II and an outer layer positioned on the outer ring of the core wire II.
The utility model is further provided with: the second core wire is formed by twisting polyester fibers, and the outer layer is formed by twisting a plurality of fibrilia.
In summary, the utility model has the following beneficial effects: a plurality of first bleeder vents have been seted up on the antibacterial layer, have seted up a plurality of guiding gutter between the adjacent bleeder vent, fixedly connected with antibacterial spare on the interior diapire of guiding gutter, be formed with the ventilative chamber of the first bleeder vent of intercommunication between adjacent antibacterial spare and antibacterial layer and the ventilative layer, form the passageway that supplies the circulation of air, reach the holistic ventilative effect of improvement surface fabric.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a diagram of the structure of the longitudinal stripe structure according to the present utility model;
FIG. 3 is a cut sheet of bacteriostatic yarn according to the utility model;
FIG. 4 is a cut-away view of a composite yarn according to the present utility model;
FIG. 5 is a cut-away view of the breathable yarn of the present utility model.
In the figure: 1. a bacteriostatic layer; 2. a ventilation layer; 3. a first ventilation hole; 4. a diversion trench; 5. a bacteriostatic piece; 6. a ventilation chamber; 7. a second ventilation hole; 8. antibacterial yarn; 9. bamboo fiber; 10. fibrilia; 11. a composite yarn; 12. breathable yarns; 13. polyester fiber.
Detailed Description
The present utility model will be described in detail below with reference to the accompanying drawings and examples.
The antibacterial degradable polyester fabric comprises an antibacterial layer 1 and a ventilation layer 2 arranged on one side of the antibacterial layer 1, wherein a plurality of first ventilation holes 3 are formed in the antibacterial layer 1, a plurality of diversion trenches 4 are formed between the adjacent first ventilation holes 3, antibacterial pieces 5 are fixedly connected to the inner bottom wall of each diversion trench 4, ventilation cavities 6 communicated with the first ventilation holes 3 are formed in the adjacent antibacterial pieces 5, and a channel for ventilation is formed, so that the overall ventilation effect of the fabric is improved.
As shown in fig. 1 and 3, a plurality of bamboo fibers 9 and a plurality of fibrilia 10 are put into a twisting machine to twist to form a bacteriostatic yarn 8, the fibrilia 10 has good moisture absorption effect and quick moisture release, the moisture absorption of the bacteriostatic yarn 8 is guaranteed, sweat stains on the bacteriostatic layer 1 are enabled to be along the direction of the bacteriostatic yarn 8, the bamboo fibers 9 have good bacteriostatic and antibacterial effects and good deodorizing effects, the antibacterial property of the bacteriostatic yarn 8 is guaranteed, and a plurality of bacteriostatic yarns 8 are put into a water jet loom to be woven into a bacteriostatic piece 5 through warps and wefts.
As shown in fig. 1 and fig. 4, a plurality of polyester fibers 13 are put into a twisting machine to be twisted to form a first core wire, the polyester fibers 13 have good structural strength and shape retention, the strength of the first core wire is ensured, two bamboo fibers 9 are interwoven with each other to form an outer wrapping layer on the outer side of the first core wire through a spindle spinning process, the composite yarn 11 is obtained, the bamboo fibers 9 have good moisture absorption effect, the silk quality is smooth, and the moisture absorption of the composite yarn 11 is ensured.
As shown in fig. 1 and 2, a plurality of composite yarns 11 are put into a water jet loom to be warp-weft woven in a longitudinal stripe structure mode to form a bacteriostatic layer 1, warp yarn structure points of the longitudinal stripe structure are floated, weft structure points of the longitudinal stripe structure are sunk, and the structure sequence of the longitudinal stripe structure is as follows: the fabric comprises a fabric body, wherein a plurality of air guide grooves 4 are integrally formed on one side of a bacteriostatic layer 1, which is close to an air permeable layer 2, and a bacteriostatic piece 5 is sewn on the inner bottom wall of the air guide grooves 4 through a sewing machine, so that sweat on the bacteriostatic layer 1 can flow along the length direction of the air guide grooves 4 through the bacteriostatic piece 5, the contact area between the sweat and the outside is increased, and the integral moisture releasing effect of the fabric is improved.
As shown in fig. 1 and 5, a plurality of polyester fibers 13 are put into a twisting machine to twist to form a core wire II, so that the structural strength of the core wire II is ensured, a plurality of fibrilia 10 are put into the twisting machine to twist to form an outer layer, the outer layer is wound on the outer side of the core wire II through a spindle spinning process to obtain breathable yarns 12, the fibrilia 10 has good moisture absorption effect, and after sweating, the fibrilia is not close to the body, the moisture absorption effect of the breathable yarns 12 is ensured, and a plurality of breathable yarns 12 are put into a water jet loom to be woven into a breathable layer 2 through warp and weft knitting.
When the fabric is used for manufacturing riding clothes, a plurality of first ventilation holes 3 are formed in the antibacterial layer 1 through the perforating machine, the first ventilation holes 3 are located between adjacent diversion trenches 4, the antibacterial piece 5 is sewn on the inner bottom wall of the diversion trenches 4 through the sewing machine, sweat on the antibacterial layer 1 can flow along the length direction of the diversion trenches 4 through the antibacterial piece 5, the contact area between sweat and the outside is increased, the overall moisture release effect of the fabric is improved through the cooperation of the sweat and the second ventilation holes 7, the second ventilation holes 7 connected with the ventilation cavity 6 are formed in the ventilation layer 2 through the perforating machine, the contact area between the ventilation layer 2 and the surface of a human body is reduced, the overall ventilation effect of the fabric is improved, the central axis of the second ventilation holes 7 and the first ventilation holes 3 are staggered to form a channel for air circulation, a large amount of sweat is not accumulated between the surface of the human body and the fabric, the antibacterial effect of the fabric is improved, and finally the ventilation layer 2 and the antibacterial layer 1 are sewn together through the sewing machine.
The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.
Claims (7)
1. Antibacterial degradable polyester fabric, its characterized in that: including antibacterial layer and the ventilative layer of setting in antibacterial layer one side, a plurality of first bleeder vents have been seted up on the antibacterial layer, adjacent a plurality of guiding gutter have been seted up between the first bleeder vent, fixedly connected with antibacterial spare on the interior diapire of guiding gutter, adjacent be formed with the ventilative chamber of the first bleeder vent of intercommunication between antibacterial spare and antibacterial layer and the ventilative layer.
2. The bacteriostatic degradable polyester fabric according to claim 1, wherein: the antibacterial member is formed by warp and weft knitting of a plurality of antibacterial yarns, and the antibacterial yarns are formed by twisting a plurality of bamboo fibers and fibrilia.
3. The bacteriostatic degradable polyester fabric according to claim 1, wherein: the antibacterial layer is formed by warp and weft knitting of a plurality of composite yarns in a longitudinal stripe structure mode, warp structure points of the longitudinal stripe structure are floating, weft structure points of the longitudinal stripe structure are sinking, and the structure of the longitudinal stripe structure is sequentially as follows: floating, sinking, floating floating, sinking, floating sinking, floating, sinking and sinking sinking, sinking and floating.
4. The bacteriostatic degradable polyester fabric according to claim 3, characterized in that: the composite yarn comprises a first core wire and an outer wrapping layer positioned on the outer ring of the first core wire, wherein the first core wire is formed by twisting a plurality of polyester fibers, and the outer wrapping layer is formed by mutually and spirally interweaving two bamboo fibers on the outer side of the first core wire.
5. The bacteriostatic degradable polyester fabric according to claim 1, wherein: the ventilation layer is provided with a second ventilation hole connected with the ventilation cavity, and the central axis of the second ventilation hole is staggered with the central axis of the first ventilation hole.
6. The bacteriostatic degradable polyester fabric according to claim 5, wherein: the breathable layer is formed by warp-weft knitting of breathable yarns, and the breathable yarns comprise a core wire II and an outer layer positioned on the outer ring of the core wire II.
7. The bacteriostatic degradable polyester fabric according to claim 6, wherein: the second core wire is formed by twisting polyester fibers, and the outer layer is formed by twisting a plurality of fibrilia.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320075061.9U CN219236414U (en) | 2023-01-10 | 2023-01-10 | Antibacterial degradable polyester fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320075061.9U CN219236414U (en) | 2023-01-10 | 2023-01-10 | Antibacterial degradable polyester fabric |
Publications (1)
Publication Number | Publication Date |
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CN219236414U true CN219236414U (en) | 2023-06-23 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320075061.9U Active CN219236414U (en) | 2023-01-10 | 2023-01-10 | Antibacterial degradable polyester fabric |
Country Status (1)
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CN (1) | CN219236414U (en) |
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2023
- 2023-01-10 CN CN202320075061.9U patent/CN219236414U/en active Active
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